RU74505U1 - FLOOR PREVENTION DEVICE (UPZK) - Google Patents

Abstract

The apartment flood prevention device (UPZK) belongs to the field of instrumentation and can be used to prevent leakage and flooding of residential premises with water from both the water supply system and the central heating system. The device uses low-voltage currents, modern, but already well-developed and not expensive electronic components, which allows to achieve high electrical safety, high consumer qualities and reliability.

UPZK consists of several electronic sensors installed by the user in the most likely places of leakage or accumulation of water. When moisture appears on them, the sensors form an encoded radio signal. This signal is picked up by the antenna of the electronic control unit (ECU), decoded, when the signal is recognized as “own”, related to this particular device, an electric pulse is generated, which is supplied to the actuators - shut-off valves. The shut-off valves are closed by the force of the manually charged spring. An electric impulse from the ECB is necessary only for the operation of the mechanism releasing the spring. The UPZK provides testing and feedback systems, moisture-proof performance, preservation of the operability of the sensors when they are accidentally created abnormally located on the floor, an audible alarm, which makes the device more reliable and convenient for the user.

Description

The utility model relates to the field of instrumentation and can be used to prevent leakage and flooding of residential premises, apartments with water from water supply systems or central heating systems (depending on the connection).

A known system for preventing gulfs of premises (RU 218163 C1, 08/11/2000). The system "is aimed at solving the problem of creating a system for automatic monitoring of the presence of water in a room in the area of its floor and controlling valves that provide shut-off of water supply pipelines in case of a leak in the water supply system or consumption units." The disadvantage of this invention is:

1. The dependence of the health of the system on the presence of voltage in the power supply network.

2. The use of high voltage valves (220 V) in valves, which in combination with a predetermined presence of moisture makes this system electrosafe.

3. The presence of connecting wires between the bay sensors and the control unit. The presence of additional wires on the floor of the room creates certain inconvenience to the user. And also requires additional protection for these wires from accidental rush.

Known multifunctional control and management system (RU 2147145 C1. 12/31/1998). The invention "relates to computer technology and can be used to monitor and control engineering systems, heating, lighting, control of gas leakage, water leaks, smoke, protection, simulate the presence of the owner", etc. .. In terms of the proposed utility model, The invention has the same drawbacks as the above invention and additionally requires a constantly working computer.

This useful model is aimed at solving, on the basis of modern technologies, the technical task of protecting an apartment from leaks of water supply systems and household appliances as a result of a violation of their tightness, and in cases of overflowing of a bathtub, sink and other water containers left unattended, autonomy and independence from power networks. The low-voltage equipment is used in the device for preventing the gulf of the apartment, which ensures its complete electrical safety.

A.1 The device for preventing the apartment’s gulf (UPZK) consists of moisture sensors located in user-defined places, an electronic control unit (EUB), hot and cold water shutoff valves (if the heating system pipes are installed on the apartment’s water heating system).

Clause 2 of the UPZK according to claim 1 is characterized in that the moisture sensor is an independent electronic device with an autonomous small-sized battery. The electronic circuit in normal (standby) operation is in standby mode and is activated when moisture enters its electrodes. In this case, the electronic circuit generates an electromagnetic (radio) signal, which is captured by the antenna of the electronic control unit. The radio signal has its own encoding and is in the frequency range allowed for use by household devices. Those. works on

the principle of the similar operation of key rings of car security systems. The electronic sensor system has a self-test system that issues, after a certain interval of time, a radio signal to the ECU. The moisture-proof sensor has a shape (as an option) of a slightly elongated hemisphere, with the center of gravity on a flat surface. It also houses the signal electrodes of the sensor, which are duplicated in the form of slightly protruding bands on the side surface of the sensor, in order to maintain operability in case of an abnormal, accidentally created, “side” position. Also, the sensor may be in the form of a box with narrow, rounded side surfaces, on both wide surfaces of which signal electrodes are installed.

Clause 3 of the UPZK according to claim 1 is characterized in that the electronic control unit (ECU) is located in a separate housing, has its own low-voltage power elements. The ECU is installed in a convenient place for the user. The principle of operation of the unit is as follows: when the moisture sensor is triggered, the radio signal enters the EUH antenna, is decoded, if the signal is recognized as “your own”, the circuit turns on, supplying voltage from the batteries to high-capacity capacitors and after they are fully charged, the discharge to the winding of the shut-off valves takes place. If the tap does not close, the cycle of charging and discharging the capacitor to the tap winding is repeated. During normal operation of the tap, the circuit of the shut-off tap breaks, which is monitored by the electronic circuit of the unit, after which the voltage for charging the capacitor ceases to be supplied and the connecting wires are de-energized.

EUB at certain intervals receives testing signals from moisture sensors. When signals are weakened due to the discharge of the last batteries or the complete loss of the radio signal, an alarm signal is issued to the audible alarm and the ECU control panel. The panel can be either LED or LCD. A signal about the critical voltage of the batteries of the ECU itself is displayed on the same panel. The ECB has a system for storing sensor signals, and if the standard moisture sensors are lost or the user wants to increase their number, it will be triggered by the signal from additional sensors.

Also on the ECU panel there is a test button for shut-off valves, when pressed, the wiring and operation of shut-off valves is tested.

Clause 4 of the UPZK according to claim 1 is characterized in that the actuators of the UPZK - shut-off electric valves are installed in the outlet pipelines of the standpipes for cold and hot water after standard shut-off valves (taps of the heating system).

The taps are normally open. The closing of the stopcocks is due to the force of the spring. The spring in normal condition is compressed. The compression and thereby opening of the stopcock is done manually.

The spring in a compressed state is locked by a mechanism controlled by an electromagnet. When voltage is applied from the ECU capacitor to the electromagnet winding, the core is retracted, and the mechanism releases the spring.

The spring is triggered - the valve is locked.

Shut-off valves are connected to the EUH by means of electrical wiring waterproof design. The normal state of the wires is de-energized. Closing the water taps is possible from the test button located on the control panel of the ECU.

Claims (4)

1. The device for preventing room flooding (UPZK) consists of several electronic moisture sensors installed by the user in places of the most likely leaks and accumulations of leaked water, an electronic control unit (EUB) with an autonomous low-voltage current source and actuators - shut-off valves. 2. UPZK according to claim 1, characterized in that the moisture sensors are electronic devices in a moisture-proof housing with autonomous low-voltage power sources, in the case of moisture at the installation site, transmitting the encoded radio signal to the electronic control unit, and in standby mode - a testing radio signal . 3. UPZK according to claim 1, characterized in that the control electronic unit (ECU) with the control panel has an autonomous low-voltage power source, is connected to the sensors via a radio signal, and with actuators - water-resistant performance wires, is not connected by cables to moisture sensors, It does not have a life-threatening voltage, it has complete testing systems, an audible alarm for the UPZK operation, a signal failure from the sensors and a voltage drop of the power sources to critical. 4. UPZK according to claim 1, characterized in that the shut-off valves are installed in the pipeline after the standard shut-off valves (when installed in heating systems - in the outlet pipes), are closed using a manually charged spring, are actuated from a single electrical signal, the purpose of which - actuation of the mechanism that releases the spring, have wires of waterproof design, de-energized both in standby mode, and after operation of the UPZK.